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Gas in a box and Ideal gas

Shortcuts: Differences, Similarities, Jaccard Similarity Coefficient, References.

Difference between Gas in a box and Ideal gas

Gas in a box vs. Ideal gas

In quantum mechanics, the results of the quantum particle in a box can be used to look at the equilibrium situation for a quantum ideal gas in a box which is a box containing a large number of molecules which do not interact with each other except for instantaneous thermalizing collisions. An ideal gas is a theoretical gas composed of many randomly moving point particles whose only interactions are perfectly elastic collisions.

Similarities between Gas in a box and Ideal gas

Gas in a box and Ideal gas have 15 things in common (in Unionpedia): Boltzmann constant, Bose gas, Bose–Einstein statistics, Chemical potential, Degenerate energy levels, Fermi gas, Fermi–Dirac statistics, Maxwell–Boltzmann distribution, Maxwell–Boltzmann statistics, Particle number, Partition function (statistical mechanics), Photon gas, Quantum mechanics, Temperature, Thermal de Broglie wavelength.

Boltzmann constant

The Boltzmann constant, which is named after Ludwig Boltzmann, is a physical constant relating the average kinetic energy of particles in a gas with the temperature of the gas.

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Bose gas

An ideal Bose gas is a quantum-mechanical phase of matter, analogous to a classical ideal gas.

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Bose–Einstein statistics

In quantum statistics, Bose–Einstein statistics (or more colloquially B–E statistics) is one of two possible ways in which a collection of non-interacting indistinguishable particles may occupy a set of available discrete energy states, at thermodynamic equilibrium.

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Chemical potential

In thermodynamics, chemical potential of a species is a form of energy that can be absorbed or released during a chemical reaction or phase transition due to a change of the particle number of the given species.

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Degenerate energy levels

In quantum mechanics, an energy level is degenerate if it corresponds to two or more different measurable states of a quantum system.

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Fermi gas

A Fermi gas is a phase of matter which is an ensemble of a large number of non-interacting fermions.

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Fermi–Dirac statistics

In quantum statistics, a branch of physics, Fermi–Dirac statistics describe a distribution of particles over energy states in systems consisting of many identical particles that obey the Pauli exclusion principle.

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Maxwell–Boltzmann distribution

In physics (in particular in statistical mechanics), the Maxwell–Boltzmann distribution is a particular probability distribution named after James Clerk Maxwell and Ludwig Boltzmann.

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Maxwell–Boltzmann statistics

In statistical mechanics, Maxwell–Boltzmann statistics describes the average distribution of non-interacting material particles over various energy states in thermal equilibrium, and is applicable when the temperature is high enough or the particle density is low enough to render quantum effects negligible.

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Particle number

The particle number (or number of particles) of a thermodynamic system, conventionally indicated with the letter N, is the number of constituent particles in that system.

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Partition function (statistical mechanics)

In physics, a partition function describes the statistical properties of a system in thermodynamic equilibrium.

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Photon gas

In physics, a photon gas is a gas-like collection of photons, which has many of the same properties of a conventional gas like hydrogen or neon – including pressure, temperature, and entropy.

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Quantum mechanics

Quantum mechanics (QM; also known as quantum physics, quantum theory, the wave mechanical model, or matrix mechanics), including quantum field theory, is a fundamental theory in physics which describes nature at the smallest scales of energy levels of atoms and subatomic particles.

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Temperature

Temperature is a physical quantity expressing hot and cold.

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Thermal de Broglie wavelength

In physics, the thermal de Broglie wavelength (\lambda_) is roughly the average de Broglie wavelength of the gas particles in an ideal gas at the specified temperature.

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The list above answers the following questions

Gas in a box and Ideal gas Comparison

Gas in a box has 27 relations, while Ideal gas has 91. As they have in common 15, the Jaccard index is 12.71% = 15 / (27 + 91).

References

This article shows the relationship between Gas in a box and Ideal gas. To access each article from which the information was extracted, please visit:

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